CN2876683Y - Heat exchanger - Google Patents

Heat exchanger Download PDF

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Publication number
CN2876683Y
CN2876683Y CN 200620069658 CN200620069658U CN2876683Y CN 2876683 Y CN2876683 Y CN 2876683Y CN 200620069658 CN200620069658 CN 200620069658 CN 200620069658 U CN200620069658 U CN 200620069658U CN 2876683 Y CN2876683 Y CN 2876683Y
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water
heat exchanger
rotating shaft
hot water
water channel
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CN 200620069658
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Chinese (zh)
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陈立秋
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Abstract

The utility model discloses a heat exchanger particularly suitable for waste hot water containing solid contaminants, which comprises an operculumed waste hot water turbine casing with one end provided with a waste hot water intake and the other end provided with a waste hot water outlet, and a heat exchange body inside the casing; wherein, the heat exchange body is connected with the rotor axis driven by an electric machine and rotates with the rotor axis; the rotor axis is connected with the casing through a bearing mounting; the clean cold water intake and clean hot water outlet of the heat exchange body are respectively communicated with the inner hole on the rotor axis, through which cold water and hot water flows in and out; the rotor axis feed-water end communicated with the feed-water end inner and the rotor axis waterexit end communicated with the waterexit end inner hole are respectively provided with rotary water joints which is communicated with water supple and devices using hot water. The utility model, characterized by high heat exchange efficiency, uneasy siltation and blockage, is an effective device which uses afterheat of waste hot water containing solid contaminants in industries like dyeing and paper-making.

Description

Heat exchanger
Technical field
The utility model relates to a kind of heat exchanger, and particularly a kind of heat exchanger that is applicable to the spent hot water of containing solid impurity belongs to the heat-exchange device technology.
Background technology
The day discharge capacity of the technique waste water of industrial enterprise such as printing and dyeing mill and paper mill generally all has more than the last kiloton.And the temperature of said technique waste water generally all more than 60 ℃, has appreciable heat.
At dyeing and finishing industry, 80% energy consumption of its wet processing is a steam.Saving steam consumption is the most important thing of economic dyeing and finishing.The used heat sewage quantity that the overflow of continuous washing machine is discharged, with clean cool water quantity in the new input rinsing bowl about equally.In order to save energy consumption, reduce the dyeing and finishing production cost, it should be noted that if, load onto a heat exchanger at the spent hot water of discharging and the clean cold water that advances groove between the two, utilize the clean cold water of spent hot water's preheating, just can save the spending of a large amount of steam energy consumptions and cost-effectivenes currency.With an open width continuous washing machine is example, and its used heat sewage emissions amount is about 3800L/h, and water temperature is 72 ℃.If after heat exchange, the temperature of used heat sewage is reduced to 40 ℃, and heat 508.6 * 10 can be provided 6J/h; And the clean cold water that flows into rinsing bowl is about 2100L/h, and water temperature is 14 ℃.If by heat exchanger heats to 68 ℃, its caloric receptivity is 474.5 * 10 with clean cold water 6J/h, both thermal balance rates reach 93.3%.In year-round operation 6000 hours, can save gauge pressure and be the about 1040t of 0.3Mpa saturated vapor.This will save the cost-effectivenes spending of 1,500,000 yuan (RMB) at least for a middle-size and small-size dyeing and finishing enterprise, be a considerable economic.
Thereby add assembling heat exchanger, obviously be a possible technique measure of creating energy-saving enterprise.But, owing in the said technique waste water, contain a lot such as water-insoluble solid impurity such as fiber, yarn, velveteen, chemical sizwe and dust.Because the existence of said solid impurity, if adopt existing board-like or shell and tube water/water heat exchanger, will be along with the passing of service time, said solid impurity is piled up in the adhesion of heat-exchanger surface, and make heat exchanger effectiveness and day descend, even be forced to quit work because of obstruction.If said spent hot water is entered heat exchanger again through behind the filter,, and need set up equipment such as automated cleaning formula filter, infusion pump and baffle-box then because of the excessive pressure loss.Like this, not only increased equipment investment and equipment operating cost, and the also obviously increasing that takes up room.Because its economy is not calculated, general dyeing and finishing enterprise all will not adopt, and this is the main cause why present dyeing and finishing industry seldom answers water/water heat exchanger.More than said problem, exist equally in other industries such as papermaking.
Summary of the invention
Technical problem to be solved in the utility model, provide a kind of heat exchanger effectiveness height, and in use heat exchanger effectiveness remains basically identical, difficult generation is stopped up, be specially adapted to contain the spent hot water's of solid impurity heat exchanger, to overcome the deficiency of prior art, satisfy industries such as dyeing and finishing and papermaking, save the needs of production cost, the energy-saving enterprise of establishment.
The applicant researches and develops overall conception of the present utility model, transmits the computing formula (being called for short the heat exchange formula) of heat: Q=KSD according to heat exchanger t(Q is a heat in the formula, and K is a coefficient of efficiency, and S is a heat exchange area, D tBe the temperature difference ℃ of two kinds of fluids), enlarge the area of heat exchange as much as possible; Adopt the technical pattern of heat exchanger rotation,, be reduced to minimum degree the adverse effect of solid impurity to heat exchange; Effectively reduce the thermal loss of used heat sewage and the wall thickness of heat exchanger simultaneously, in the hope of the maximization of the utility model heat exchanger effectiveness.
For above-mentioned overall conception, the utility model solves it and wants the technical scheme of technical solution problem to be, a kind of heat exchanger that is specially adapted to contain the spent hot water of solid impurity, comprise that an end is provided with spent hot water's water inlet, the other end is provided with the spent hot water's through-flow housing that has cap of spent hot water's delivery port, with the heat exchanger that is located at enclosure interior, its innovative point is: heat exchanger with connect by motor-driven rotating shaft and can rotate with rotating shaft, rotating shaft connects by bearing block and housing, the clean cooling water inlet of heat exchanger and net thermal water outlet thereof, cold only with the set turnover of rotating shaft respectively, the endoporus section of hot water is connected, the water inlet end that connects with water inlet end endoporus section of rotating shaft, with the water side that connects with water side endoporus section, be provided with respectively can with water source and the rotating water head that is connected with hot water facility.
Can understand by above given agent technology scheme, the utility model is owing to adopted the technical pattern of built-in heat exchanger rotation, and order contains the spent hot water of solid impurity, under the stirring of heat exchanger rotation, effectively eliminating the adhesion of said solid impurity on heat exchanger piles up, make the heat exchange coefficient of efficiency K of heat exchanger, can not pile up and reduce day by day owing to the adhesion of said solid impurity, and its heat exchange area is maximized consistently, just can not produce blocking problem simultaneously yet, thereby solved technical problem to be solved in the utility model, realized the purpose of this utility model.
Further innovative point of the present utility model is:
Said housing is rectangle, in housing, be provided with the dividing plate that several are arranged at a certain distance along its length, housing is separated into several used heat hydroeciums by several dividing plates, and several dividing plates respectively are provided with the made spent hot water who is staggeredly arranged and are snakelike mobile gap; The quantity of said heat exchanger equates that with the quantity of used heat hydroecium it is indoor that heat exchanger is located at the spent hot water; Said heat exchanger is made up of along helical form water channel radial arrangement and with the former that the helical form water channel connects spiral water channel and several; Said former and rotating shaft connect; Be positioned at the water inlet of helical form water channel of the first heat exchanger of clean cold water water inlet end, be connected with rotating shaft water inlet end endoporus section, and the endoporus section of its delivery port and rotating shaft be connected; Adjacent after the water inlet of said water channel, be connected by the endoporus section of rotating shaft and the delivery port of said the first water channel, the endoporus section of its delivery port by rotating shaft be adjacent after the water inlet of said water channel be connected; Later said water channel attaching so one by one is connected until the water inlet with the said water channel of the tail position heat exchanger that is positioned at clean cold water water side; And the delivery port of the said water channel in tail position is connected with rotating shaft water side endoporus section, thereby makes several said water channels constitute cascaded structure.Its purpose obviously is, the water channel by shape is in the shape of a spiral arranged effectively enlarges heat exchange area, improves heat exchanger effectiveness; Also be simultaneously when effectively enlarging heat exchange area, effectively to reduce the utility model space shared, to adapt to the production scene requirement of actual application in the production scene.
Be located at per 1 heat exchanger that the spent hot water is indoor, form a unit by 2 heat exchangers; 2 heat exchangers are coupled to one by axial set joint cover, it is the water inlet of the said water channel of heat exchanger the preceding, be connected with the endoporus section of rotating shaft, and its delivery port with after the water inlet of said water channel of heat exchanger be connected, after the delivery port of said water channel of heat exchanger, the endoporus section set with rotating shaft is connected, and makes 2 helical form water channels of unit heat exchanger constitute cascaded structure.Saidly form a unit heat exchanger by 2 heat exchangers, and each unit heat exchanger is located at 1 separates the indoor technical pattern of spent hot water that useless dirty hot water through-flow housing is constituted by dividing plate, although its heat exchanger effectiveness and the heat exchanger effectiveness that is located at 1 technical pattern in the said hydroecium by 1 heat exchanger, it is basically identical, but its overall structure will be more rationally compact, thereby its preparation cost is relatively low, especially have under the condition of the heat exchange area that is equal at both, it takes up space will be littler, adapts to the production scene requirement of actual application more.
The helical form water channel of said heat exchanger, by sheet metal make and its cross section rectangular.For example stainless sheet steel or thin aluminum sheet or sheet copper can further improve heat exchanger effectiveness of the present utility model as the material of heat exchanger to adopt sheet metal; And rectangular configuration is adopted in the cross section of said water channel, can effectively strengthen the intensity of stirring the spent hot water, further prevents the deposition of said solid impurity, improves heat exchanger effectiveness.
The said motor that is used for driving rotating shaft has regularly speed governing reversing arrangement.Owing to regularly adjust the existence of reversing arrangement, can form the such stirring of similar washing machine, its purpose is obviously further to prevent that said solid impurity adhesion is deposited on the heat exchanger, and further improves heat exchanger effectiveness of the present utility model, prevents the generation of blockage problem.
Be provided with heat-insulation layer at the said shell wall outer surface that has spent hot water's through-flow housing of cap.Its purpose obviously is effectively to prevent the spent hot water via the radiation loss that housing caused, with further raising heat exchanger effectiveness.
After technique scheme was implemented, what the utility model had was rational in infrastructure, the heat exchanger effectiveness height, and in use heat exchanger effectiveness remains basically identical; The difficult obstruction; Characteristics such as it is little to take up room are self-evident.According to first sample work test of the present utility model, its heat exchanger effectiveness reaches more than 90%.
Description of drawings
Fig. 1 is the structural representation of a kind of specific embodiment of the utility model;
Fig. 2 is the structural representation of heat exchanger as shown in Figure 1;
Fig. 3 is the side view of Fig. 2;
Fig. 4 be as shown in Figure 1 the utility model in the helical form water channel of heat exchanger clean cold water flow to schematic diagram;
Fig. 5 is a schematic side view before the utility model spent hot water's in spent hot water's through-flow housing as shown in Figure 1 the flow direction;
Fig. 6 be as shown in Figure 1 the utility model in spent hot water's through-flow housing the spent hot water flow to schematic top plan view.
The specific embodiment
By above given accompanying drawing, can understand that the utility model solves its technical problem to be solved, realizes the technical scheme of its purpose.Below the contrast accompanying drawing is by the description of the specific embodiment, and the utility model is described in further detail.
One of specific embodiment please be joined and be read accompanying drawing 1
A kind of heat exchanger that is specially adapted to contain the spent hot water of solid impurity, comprise that an end is provided with spent hot water's water inlet 1-1, the other end is provided with the spent hot water's through-flow housing 1 that has cap of spent hot water's delivery port 1-2, with the heat exchanger 2 that is located at housing 1 inside, heat exchanger 2 connects with the rotating shaft 4 that is driven through speed changer by motor 3 and can be with rotating shaft 4 rotation, rotating shaft 4 connects by bearing block 5 and housing 1, the clean cooling water inlet 2-1 of heat exchanger 2 and net thermal water outlet 2-2 thereof, cold only with rotating shaft 4 set turnover respectively, the endoporus section 4-1 of hot water, 4-2 is connected by connecting tube, the water inlet end that connects with water inlet end endoporus section 4-1 of rotating shaft 4, with the water side that connects with water side endoporus section 4-2, be provided with respectively can with water source and the rotating water head 6 that is connected with hot water facility.The version of the described heat exchanger 2 of this embodiment can be common existing tubular type or plank frame, also can be other version.And the clean hot water or cold water of heat exchanger imports and exports 2-1,2-2, with the connecting tube that rotating shaft 4 endoporus section 4-1,4-2 are connected, can be rigid water pipe or such as flexible water conduits such as rubber tube, corrugated tubes, perhaps other connector.
Two of the specific embodiment, ginseng is read accompanying drawing 1 to 6.
A kind of heat exchanger that is specially adapted to contain the spent hot water of solid impurity, comprise that an end is provided with spent hot water's water inlet 1-1, the other end is provided with the spent hot water's through-flow housing 1 that has cap of spent hot water's delivery port 1-2, with the heat exchanger 2 that is located at housing 1 inside, heat exchanger 2 connects with the rotating shaft 4 that is driven through speed changer by motor 3 and can be with rotating shaft 4 rotation, rotating shaft 4 connects by bearing block 5 and housing 1, the clean cooling water inlet 2-1 of heat exchanger 2 and net thermal water outlet 2-2 thereof, cold only with rotating shaft 4 set turnover respectively, the endoporus section 4-1 of hot water, 4-2 is connected, the water inlet end that connects with water inlet end endoporus section 4-1 of rotating shaft 4, with the water side that connects with water side endoporus section 4-2, be provided with respectively can with water source and the rotating water head 6 that is connected with hot water facility.Said housing 1 is rectangle, in housing 1, be provided with 3 dividing plate 1-3 that arrange at a certain distance along its length, housing 1 is separated into 4 used heat hydroecium 1-4 by 3 dividing plate 1-3, and 3 dividing plate 1-3 respectively are provided with the made spent hot water who is staggeredly arranged and are snakelike mobile gap 1-5; The quantity of said heat exchanger 2 equates that with the quantity of used heat hydroecium 1-4 heat exchanger 2 is located in the used heat hydroecium 1-4; Said heat exchanger 2 is radially evenly arranged and is formed with former 2-2 that helical form water channel 2-1 connects along helical form water channel 2-1 by spiral water channel 2-1 and 6; Said former 2-2 and rotating shaft 4 connect; Be positioned at the water inlet of helical form water channel 2-1 of the first heat exchanger 2 of clean cold water water inlet end, 4 water inlet end endoporus section 4-1 are connected with rotating shaft, and the endoporus section 4-3 of its delivery port and rotating shaft 4 is connected; Adjacent after the water inlet of said water channel 2-1, endoporus section 4-3 and said the first water channel 2-1 delivery port by rotating shaft 4 are connected, the endoporus section 4-3 of its delivery port by rotating shaft 4 be adjacent after the water inlet 2-1 of said water channel be connected; The 3rd later water channel 2-1 be so attaching also, and the water inlet of its delivery port and the said water channel 2-1 of the tail position heat exchanger 2 that is positioned at the net thermal water water side is connected; And the delivery port of the said water channel 2-1 in tail position is connected with rotating shaft 4 water side endoporus section 4-2, thereby makes several said water channel 2-1 constitute the series connection communicating structure.Other is all as one of specific embodiment.
Three of the specific embodiment is shown in accompanying drawing 1 to 6.
A kind of heat exchanger that is specially adapted to contain the spent hot water of solid impurity, comprise that an end is provided with spent hot water's water inlet 1-1, the other end is provided with the spent hot water's through-flow housing 1 that has cap of spent hot water's delivery port 1-2, with the heat exchanger 2 that is located at housing 1 inside, heat exchanger 2 connects with the rotating shaft 4 that is driven through speed changer by motor 3 and can be with rotating shaft 4 rotation, rotating shaft 4 connects by bearing block 5 and housing 1, the clean cooling water inlet 2-1 of heat exchanger 2 and clean cooling water outlet 2-2 thereof, respectively with the endoporus section 4-1 of the clean cold water of rotating shaft 4 set turnover, 4-2 is connected, the water inlet end that connects with water inlet end endoporus section 4-1 of rotating shaft 4, with the water side that connects with water side endoporus section 4-2, be provided with respectively can with water source and the rotating water head 6 that is connected with hot water facility.Said housing 1 is rectangle, in housing 1, be provided with 3 dividing plate 1-3 that arrange at a certain distance along its length, housing 1 is separated into 4 used heat hydroecium 1-4 by 3 dividing plate 1-3, and 3 dividing plate 1-3 respectively are provided with the made spent hot water who is staggeredly arranged and are snakelike mobile gap 1-5; The quantity of said heat exchanger 2 equates that with the quantity of used heat hydroecium 1-4 heat exchanger 2 is located in the used heat hydroecium 1-4; Said heat exchanger 2 is radially evenly arranged and is formed with former 2-2 that helical form water channel 2-1 connects along helical form water channel 2-1 by spiral water channel 2-1 and 6; Said former 2-2 and rotating shaft 4 connect; Be located at the heat exchanger 2 in per 1 used heat hydroecium 1-4, form a unit by 2 heat exchangers 2; 2 heat exchangers 2 are coupled to one by axial set joint cover 7, it is the water inlet of the said water channel 2-1 of heat exchanger 2 the preceding, be connected by hollow former 2-2-1 with the endoporus section 4-1 of rotating shaft 4, and its delivery port with after the water inlet of said water channel 2-1 of heat exchanger 2 be connected by hollow joint cover 7-1, after the delivery port of said water channel 2-1 of heat exchanger 2, the endoporus section 4-3 set with rotating shaft 4 is connected, and makes 2 helical form water channel 2-1 of unit heat exchanger 2 constitute cascaded structures; Be positioned at the said water channel 2-1 of the 2nd and the 3rd later unit heat exchanger of the 1st unit, with the same attaching of said water channel 2-1 of the 1st unit heat exchanger, be connected until water inlet with the said water channel 2-1 of the tail position heat exchanger 2 that is positioned at the net thermal water water side; And the delivery port of the said water channel 2-1 in tail position is connected with rotating shaft 4 water side endoporus section 4-2, thereby makes 4 said water channel 2-1 in unit constitute the series connection communicating structure.The helical form water channel 2-1 of said heat exchanger 2, by stainless sheet steel make and its cross section rectangular.On the outer circle wall of helical form water channel 2-1, be provided with 6 joint covers 7 vertically.Be provided with cellular plastic heat-insulation layer 9 at the said shell wall outer surface that has the housing 1 of cap.Other is all as two of the specific embodiment.As the described the utility model of this embodiment, be the applicant special advocate.
The utility model by the 3 routine specific embodiment described above are implemented does not all need to dispose spent hot water's filter.If adopt flexible pipe to connect spent hot water's the import and export and the import and export of clean cold water, then can easily the utility model be placed in the side of on-site producing devices, for example the entering cloth rack place of the open width rinsing machine of dyeing and finishing enterprise.
Design feature of the present utility model as three of the specific embodiment is implemented has the following aspects at least:
1, the utility model can be according to spent hot water's discharge capacity, by a plurality of used heat hydroeciums (1-4) combinations (seeing accompanying drawing 1), the helical form water channel 2-1 that is made with sheet metal by two tools in per 1 hydroecium constitutes and looks closely " rotary drum " (the seeing accompanying drawing 2) that is " cobweb " shape, and is composed in series clean cold water channel by 4 said " rotary drums ".Thereby effectively utilized said housing intracavity space, enlarged heat exchange area S, prolonged hot cold water swap time, improved recuperation of heat coefficient of efficiency K value (see before and state the heat exchange formula).
2, the water inlet 1-1 of spent hot water through being located at housing 1 one sides bottom enters in the housing 1, then under staggering the guiding of the gap 1-5 that is provided with at dividing plate 1-3 with at dividing plate 1-3 top, form snakelike flowing, discharge (seeing accompanying drawing 1) by the delivery port 1-2 that is located at housing 1 another side top then; Clean cold water via the endoporus section 4-1 of rotating shaft 4, enters said " rotary drum " water channel by being positioned at the rotating water head 6 that housing 1 is provided with the side of delivery port 1-2, and the endoporus section 4-2 via rotating shaft 4 other ends discharges (seeing accompanying drawing 4) then.Because the spent hot water is reverse flow with clean cold water, thereby has improved the temperature difference D of heat exchange tValue (see before and state the heat exchange formula).
3, many tools said " rotary drum " are coaxial by 1 motor-driven.And motor has regularly speed governing reversing arrangement.When said " rotary drum " rotates in the spent hot water, just can produce and be similar to the same turbulent flow of washing machine, stir and mix the spent hot water.Can make it include solid impurity so on the one hand and keep good suspended state, can not deposit and adhere on the heat exchanger; Can avoid the temperature conduction resistance owing to the different temperatures fluid layer on the other hand, the heat exchanger effectiveness that is caused descends, and can keep the desirable temperature difference D of two kinds of fluids t(seeing the heat exchange formula).
4, since the existing of former 2-2 that connects with said " rotary drum " and joint cover 7 (seeing accompanying drawing 2) can make the spent hot water be centrifugal impelling, thereby clean inwall and " rotary drum " formula heat exchanger self of housing 1 effectively.And because the strong agitation spent hot water, further make the solid impurity that is present among the spent hot water keep suspended state, prevent alluvial and improve heat exchanger effectiveness of the present utility model more.
By characteristics described above as seen, the utility model is a kind of self-cleaning heat exchanger.
Clean cold water of the present utility model flows the water route as shown in Figure 4.Clean cold water is entered the endoporus section 4-1 of rotating shaft 4 heads by rotating water head 6, enter the inner ring end water inlet of helical form water channel 2-1 the preceding through hollow former 2-2-1, then through being located at the delivery port of said water channel 2-1 outer ring end, again through hollow joint cover 7-1 enter after the water inlet of helical form water channel 2-1 outer ring end, bring out the mouth of a river by its inner ring then, enter the endoporus section 4-3 of rotating shaft 4 again through hollow former 2-2-1, and then enter the water inlet of its inner ring end by the hollow former 2-2-1 that is located at the water channel of the helical form the preceding 2-1 in the next used heat hydroecium 1-4; Connect so one by one,, flow out via rotating water head 6 again until the endoporus section 4-2 that is located at rotating shaft 4 other ends.
Spent hot water's glide path of the present utility model is shown in accompanying drawing 5,6.When the spent hot water is entered Room the 1st, left side by the water inlet 1-1 that is located at housing 1 bottom after, the spent hot water is snakelike up and down flows after being full of Room the 1st, enter second Room by gap 1-5, until being full of Room the 4th, discharged by the delivery port 1-2 that is located at housing 1 top, the spent hot water is snakelike up and down flows thereby constitute again; Stagger mutually owing to be located at the gap 1-5 at dividing plate 1-3 top, thereby spent hot water's axial flow also is snakelike flowing.With horizontal two kinds of snakelike types of flow that flow and combine, be very beneficial for the suspension that it includes solid impurity, thereby effectively improve heat exchanger effectiveness and the alluvial that prevents solid impurity about such spent hot water.
First sample of the present utility model, on probation on the open width rinsing machine of middle-size and small-size dyeing and finishing enterprise, its effect is good.Will be through the water purification that the utility model heated, the open width rinsing machine is made dead end adverse current to supply water, in year-round operation 6000 hours, recyclable heat is saved steam 1000t, tear open and close 120,000 yuan of RMB, the about 1800KWh of deduction drive motors electricity consumption tears open and closes 1170 yuan of RMB, can obtain the repayment of 11.8 ten thousand yuan of about RMB, obtain tangible economic benefit.

Claims (5)

1, a kind of heat exchanger that is specially adapted to contain the spent hot water of solid impurity, comprise that an end is provided with the spent hot water's through-flow housing (1) that has cap that spent hot water's water inlet (1-1) other end is provided with spent hot water's delivery port (1-2), with the heat exchanger (2) that is located at housing (1) inside, it is characterized in that: heat exchanger (2) connects with the rotating shaft (4) that is driven by motor (3) and can rotate with rotating shaft (4), rotating shaft (4) connects by bearing block (5) and housing (1), the clean cooling water inlet (2-1) of heat exchanger (2) and net thermal water outlet (2-2) thereof, cold only with the set turnover of rotating shaft (4) respectively, endoporus section (the 4-1 of hot water, 4-2) be connected, the water inlet end that connects with water inlet end endoporus section (4-1) of rotating shaft (4), with the water side that connects with water side endoporus section (4-2), be provided with respectively can with water source and the rotating water head (6) that is connected with hot water facility.
2, heat exchanger according to claim 1, it is characterized in that: said housing (1) is rectangle, in housing (1), be provided with several dividing plates of arranging at a certain distance (1-3) along its length, housing (1) is separated into several used heat hydroeciums (1-4) by several dividing plates (1-3), and several dividing plates (1-3) respectively are provided with the made spent hot water who is staggeredly arranged and are snakelike mobile gap (1-5); The quantity of said heat exchanger (2) equates that with the quantity of used heat hydroecium (1-4) heat exchanger (2) is located in the used heat hydroecium (1-4); Said heat exchanger (2) is made up of along helical form water channel (2-1) radial arrangement and with the former (2-2) that helical form water channel (2-1) connects spiral water channel (2-1) and several; Said former (2-2) connects with rotating shaft (4); Be positioned at the water inlet of helical form water channel (2-1) of the first heat exchanger (2) of clean cold water water inlet end, be connected with rotating shaft (4) water inlet end endoporus section (4-1), and the endoporus section (4-3) of its delivery port and rotating shaft (4) be connected; Adjacent after the water inlet of said water channel (2-1), endoporus section (4-3) by rotating shaft (4) is connected with the delivery port of said the first water channel (2-1), the endoporus section (4-3) of its delivery port by rotating shaft (4) be adjacent after the water inlet of said water channel (2-1) be connected; Later said water channel (2-1) attaching so one by one is connected until the water inlet with the said water channel (2-1) of the tail position heat exchanger (2) that is positioned at clean cold water water side; And the delivery port of the said water channel in tail position (2-1) is connected with rotating shaft (4) water side endoporus section (4-2), thereby makes several said water channels (2-1) constitute cascaded structure.
3, heat exchanger according to claim 2 is characterized in that: be located at the heat exchanger (2) in per 1 used heat hydroecium (1-4), form a unit by 2 heat exchangers (2); 2 heat exchangers (2) are coupled to one by axial set joint cover (7), it is the water inlet of the said water channel (2-1) of heat exchanger (2) the preceding, be connected with the endoporus section of rotating shaft (4), and its delivery port with after the water inlet of said water channel (2-1) of heat exchanger (2) be connected, after the delivery port of said water channel (2-1) of heat exchanger (2), the endoporus section set with rotating shaft (4) is connected, and makes 2 helical form water channels (2-1) of unit heat exchanger (2) constitute cascaded structure.
4, according to claim 1 or 2 or 3 described heat exchangers, it is characterized in that: the helical form water channel (2-1) of said heat exchanger (2), by sheet metal make and its cross section rectangular.
5, heat exchanger according to claim 1 and 2 is characterized in that: be provided with heat-insulation layer (9) at the said shell wall outer surface that has spent hot water's through-flow housing (1) of cap.
CN 200620069658 2006-02-22 2006-02-22 Heat exchanger Expired - Lifetime CN2876683Y (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102519282A (en) * 2011-12-29 2012-06-27 中国船舶重工集团公司第七一一研究所 Heat exchanger with heat exchange surface capable of rotating so as to strengthen heat exchange
CN104236354A (en) * 2014-09-25 2014-12-24 无锡康柏斯机械科技有限公司 Heat exchanger
CN108413793A (en) * 2018-02-05 2018-08-17 湖南湘讯企业管理有限公司 A kind of multi-level energy-saving type waste-heat recovery device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102519282A (en) * 2011-12-29 2012-06-27 中国船舶重工集团公司第七一一研究所 Heat exchanger with heat exchange surface capable of rotating so as to strengthen heat exchange
CN104236354A (en) * 2014-09-25 2014-12-24 无锡康柏斯机械科技有限公司 Heat exchanger
CN108413793A (en) * 2018-02-05 2018-08-17 湖南湘讯企业管理有限公司 A kind of multi-level energy-saving type waste-heat recovery device

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